Semester 1 20182019 ENT 2493 ELECTRICAL CIRCUIT AND

EDUCATIONAL BACKGROUND • 2002 - 2006: Tokushima University, Japan (B. Eng in Electrical &

IMPLEMENTATION OF OBE Teaching plan Course Outcome (CO’s) PLANNING CQI OBE Corrective action IMPLEMENTATION

Course Outcome • CO 1: Ability to analyze the DC, AC and Three Phase

Lecture/Lab Timetable ENT 249 • Lecture • Thursday 10: 30 – 12: 30 (BKN

Teaching Plan Study Week 1 Course Content Introduction to Electrical Circuits Introduction to basic

Circuit theorems-2 Equivalent circuits of Thevenin and Norton, Maximum Power Transfer 5 Lab Intro

Transformer Principles of transformer, construction and design. Efficiency of operation, efficiency of three-phase transformer’s

Laboratory / 4 Experiments Lab Intro 1. Ø Introduction to Lab Instrument and Basic

Evaluation contribution • (i) Peperiksaan/ Examination: 70% • Mid Term Examination = 10% •

Reference Books 1) Fundamentals of Electric Circuit, 5 th Edition, Alexander & Sadiku, Mc.

Slides: 14

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Semester 1, 2018/2019 ENT 249/3 ELECTRICAL CIRCUIT AND MACHINE Dr Azian Azamimi binti Abdullah Biomedical Electronic Engineering Programme (RK 85) Email : azamimi@unimap. edu. my HP No: 013 -4285288 Room No. 77 (Near Postgraduate Lab)

EDUCATIONAL BACKGROUND • 2002 - 2006: Tokushima University, Japan (B. Eng in Electrical & Electronic) • 2006 - 2007: Engineer at Toshiba • 2007 - 2009: Tokushima University, Japan (M. Eng in Electrical & Electronic) • 2009 - 2013: Lecturer at Universiti Malaysia Perlis (Uni. MAP) • 2013 – 2014: NAIST, Japan (Research student) • 2014 – 2017: NAIST, Japan (Ph. D in Bioinformatics) • Since April 2017 : Senior lecturer at Uni. MAP • Research area : Bioinformatics, Artificial Intelligence (AI), Machine Learning, Big Data 2

IMPLEMENTATION OF OBE Teaching plan Course Outcome (CO’s) PLANNING CQI OBE Corrective action IMPLEMENTATION Lectures Tutorials Laboratories evaluation ASSESSMENT Assignment Quizzes Lab report/ Lab test Exam

Course Outcome • CO 1: Ability to analyze the DC, AC and Three Phase circuits to solve engineering problems. • CO 2: Ability to analyze the electromagnetic circuit and characteristics of electrical machine and its application. • CO 3: Ability to design and evaluate the electrical circuit and electrical machine.

Lecture/Lab Timetable ENT 249 • Lecture • Thursday 10: 30 – 12: 30 (BKN 6&7) • Friday 17: 00 – 18: 00 (DKN 1&2) • Lab/Tutorial • Tuesday 10: 00 – 12: 00 Lab MN 4 B 1 (Electronic Lab) • Tuesday 12: 30 – 14: 30 Lab MN 4 B 1 (Electronic Lab) • Thursday 08: 30 – 10: 30 Lab MN 4 B 1 (Electronic Lab)

Teaching Plan Study Week 1 Course Content Introduction to Electrical Circuits Introduction to basic concepts of electron theory, electrical sources, resistance and factors which influence the resistance, types of electrical circuits, voltage, current and resistor relationship, electrical power, electrical energy. Basic Laws Nodes, Branches, and Loops. Series Resistors and Voltage Division, Parallel Resistors and Current Division, characteristics of serial and parallel circuit, Ohm’s Law and Kirchhoff’s Law. 2 3 Methods of Analysis Nodal Analysis, Nodal Analysis with Voltage Sources, Mesh Analysis with Current Sources. Circuit theorems-1 Electrical circuit by using Linearity Property, Superposition, Source Transformation 4 Tutorial 1 (Week 4)

Circuit theorems-2 Equivalent circuits of Thevenin and Norton, Maximum Power Transfer 5 Lab Intro (Week 5) Introduction to AC Circuits Basic principle of inductor and capacitor. AC circuit, series and parallel circuits (R, L, C). 6 -7 Laboratory 1 (Week 6) Laboratory 2 (Week 7) Magnetic And Electromagnetic Basic principle of magnetic and characteristics, electromagnetic. Factors influence magnetic field strength, electromagnetic induction. Magnetic circuit for electrical machines and permanent magnetic field excitation. 8 -9 Tutorial 2 (Week 8) 10 Three-Phase Circuit Concepts and principle of three-phase system, star and delta connections. Power in Balance Three-Phase Circuit and Average Power Calculation in Three-Phase Circuit.

Transformer Principles of transformer, construction and design. Efficiency of operation, efficiency of three-phase transformer’s operation and parallel transformer operation. 11 -12 Laboratory 3 (Week 12) Electrical Machines-1 DC generator, DC construction machines. Identify characteristics of DC motor. Loss and efficiency of DC motor. 13 Tutorial 3 (Week 13) Electrical Machines-2 AC generator and single phase AC motor. Type of starter, relationship between torque and speed and applications. Motor’s speed control. 14

Laboratory / 4 Experiments Lab Intro 1. Ø Introduction to Lab Instrument and Basic Measurement Laboratory 1 2. Ø Kirchoff’s Law. Laboratory 2 3. Ø Norton’s and Thevenin’s Theorem. Laboratory 3 4. Ø Single Phase Transformer.

Evaluation contribution • (i) Peperiksaan/ Examination: 70% • Mid Term Examination = 10% • Final Examination = 60% • (ii) Kerja kursus/course work: 30% • Lab Reports 10% • Assignments 10% • Quizzes 10%

Reference Books 1) Fundamentals of Electric Circuit, 5 th Edition, Alexander & Sadiku, Mc. Graw. Hill 2) Electrical and electronic Technology, Ninth Edition, Edward Hughes, Pearson 3) Principles of Electric Circuits (Conventional Current Version), 8 th Edition, Floyd, Pearson 4) Electric Circuits, 7 th Edition, Nilsson Riedel, Pearson 5) Electric Circuits Fundamentals, 6 th Edition, Floyd, Pearson 6) Electric Circuits and Machine, 7 th Edition, Lister & Rusch, Mc. Graw. Hill 7) Electrical Machines, Drives and Power Systems, 6 th Edition, Wildi, Pearson

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